Compressed Air

From HBM's Nuclear Tech Wiki

Compressed air is a gas that is used primarily to transport items via pneumatic tubes, it can be obtained with an air intake.


Compressed Air
Properties
TypeGas
Made With/ByOther
Difficulty of ProductionEasy
Exists in RealityYes
Can Be PlacedNo
Temperature~20°C
Renewable?Yes
Tooltip
Compressed Air
[Gaseous]
Hbm's Nuclear Tech
Warnings
Fire Diamond
NFPA 704
NFPA 704 four-colored diamondHealth 0: Exposure under fire conditions would offer no hazard beyond that of ordinary combustible material. E.g. sodium chlorideFlammability 0: Will not burn. E.g. waterInstability 0: Normally stable, even under fire exposure conditions, and is not reactive with water. E.g. liquid nitrogen
0
0
0
Compressed Air


Production

Producing compressed air is rather simple, as only an air intake and power is required. An air intake can be assembled with the following recipe:

Steel Grate
Steel Grate
Steel Grate
Steel Plate
Motor
Steel Plate
Steel Plate
Steel Tank
Steel Plate
Air Intake

Uses

Compressed air can be used alongside compressors to transport items via pneumatic tubes, and the range of the tube is dependant on how many compressors are used:

Pressure Range
1 PU 10m
2 PU 25m
3 PU 100m
4 PU 250m
5 PU 1000m

It also has other uses in the chemical plant.

Chemical Plant
Inputs Recipe
Chemistry Template: Biogas Production

Production Time: 3.0 seconds

Inputs: Compressed Air, Biomass

Produces: Biogas

Compressed Air
4,000mB
Biomass16
Biogas
2,000mB
Chemistry Template: Linde Xenon Cycle

Production Time: 15 seconds

Inputs: Compressed Air

Produces: Xenon Gas

Compressed Air
16,000mB
Xenon Gas
50mB
Chemistry Template: Boosted Linde Xenon Cycle

Production Time: 1.0 seconds

Inputs: Compressed Air, Liquid Oxygen

Produces: Xenon Gas

Compressed Air
8,000mBLiquid Oxygen
250mB
Xenon Gas
50mB
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